Abstract
In this paper we propose a method that implements student diagnosis in the context of the Adaptive Hypermedia Educational System INSPIRE - INtelligent System for Personalized Instruction in a Remote Environment. The method explores ideas from the fields of fuzzy logic and multicriteria decisionmaking in order to deal with uncertainty and incorporate in the system a more complete and accurate description of the expert’s knowledge as well as flexibility in student’s assessment. To be more precise, an inference system, using fuzzy logic and the Analytic Hierarchy Process to represent the knowledge of the teacher-expert on student’s diagnosis, analyzes student’s answers to questions of varying difficulty and importance, and estimates the student’s knowledge level. Preliminary experiments with real students indicate that the method is characterized by effectiveness in handling the uncertainty of student diagnosis, and is found to be closer to the assessment performed by a human teacher, when compared to a more traditional method of assessment.
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References
Brusilovsky, P.: Methods and Techniques of Adaptive Hypermedia. User Modeling and User-Adapted Interaction, Vol.6. Kluwer Academic Publ., Netherlands (1996) 87–129
Carroll, J.M., Rosson, M.B. (1990). Human-computer interaction scenarios as a design representation. In Proc. of IEEE HICSS-23, 23rd Hawaii Intl. Conf. System Sciences Vol. II, 555–561.
Papanikolaou, K., Grigoriadou, M., Kornilakis, H., Magoulas, G.: INSPIRE: An INtelligent System for Personalized Instruction in a Remote Environment. In: Reich, S., Tzagarakis, M.M., De Bra, P. M.E. (eds.): “Hypermedia: Openness, Structural Awareness and Adaptivity”. Lecture Notes in Computer Science Vol. 2266. Springer-Verlag, Berlin (2001)
Jameson, A.: Numerical Uncertainty Management in User and Student Modeling: An Overview of Systems and Issues. User Modeling and User-Adapted Interaction 5:3/4 (1996) 193–251
Lin, C.T., Lee, C.S.G.: Neural Fuzzy Systems: A Neuro-Fuzzy Synergism to Intelligent Systems. Prentice Hall P T R Upper Saddle River, New Jersey (1996)
Magoulas, G.D., Papanikolaou, K.A., Grigoriadou, M.: Neuro-fuzzy Synergism for Planning the Content in a Web-based Course. Informatica 25:1 (2001) 39–48
Merril, M.D.: Component Display Theory. In: C.M. Reigeluth (ed.), Instructional design theories and models: An overview of their current status. Lawrence Elrbaum Associates Hillsdale NJ (1983)
Panagiotou M., Grigoriadou M.: An Application of Fuzzy Logic to Student Modeling. In: Proceedings of the IFIP World conference on Computer in Education. (WCCE95), Birmigham (1995)
Reece, I., Walker, S.: Teaching, Training and Learning. A Practical Guide. Third Edition. Business Education Publishers Limited, Sunderland (1997)
Saaty T.: The Analytic Hierarchy Process, McGraw-Hill, New York (1980)
VanLehn, K.: Student Modeling. In: Polson, M. C., Richardson, J.J. (eds.): Foundations of Intelligent Tutoring Systems. Lawrence Erlbaum Associates Hillsdale, New Jersey (1988) 55–78
VanLehn, K., Niu, Z.: Bayesian student modeling, user interfaces and feedback: A sensitivity analysis. International Journal of Artificial Intelligence in Education 12 (2001)
Zadeh, L. A.: Fuzzy Sets. Information and Control 8:3 (1965) 338–353
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Grigoriadou, M., Kornilakis, H., Papanikolaou, K.A., Magoulas, G.D. (2002). Fuzzy Inference for Student Diagnosis in Adaptive Educational Hypermedia. In: Vlahavas, I.P., Spyropoulos, C.D. (eds) Methods and Applications of Artificial Intelligence. SETN 2002. Lecture Notes in Computer Science(), vol 2308. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-46014-4_18
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DOI: https://doi.org/10.1007/3-540-46014-4_18
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